Algorithms used one mobile anchor node have many advantages, such as low cost, high precision, easy to realize 3-d positioning, etc.
使用移动锚节点定位方法有很多优点,如定位成本低、容易达到很高的定位精度、易于实现三维定位等。
This paper adopts mobile anchor node combining PBCC algorithm, and proposes a self-localization algorithm with low energy consumption and high precision.
本文采用移动锚节点并结合PBCC算法,提出一种复杂度低、精度高的节点自身定位改进算法。
This paper introduces the artificial grouting construction process, the slurry infusion simulation and anti-floating anchor node waterproof treatment according to an engineering case.
结合工程实例介绍了人工注浆法的施工工艺、灌注浆的模拟试验及抗浮锚杆的节点防水处理措施。
In order to make node self-localization precision satisfy the need of varied network size, hybrid-hop Monte-Carlo method is proposed to solve the constraint of low anchor node density.
为了使传感器节点自定位精度能够适应于不同网络规模应用的需要,提出了多跳跃蒙特—卡罗节点定位方法,解决了锚节点密度低的应用限制。
In order to make node self-localization precision satisfy the need of varied network size, hybrid-hop Monte-Carlo method is proposed to solve the constraint of low anchor node density.
为了使传感器节点自定位精度能够适应于不同网络规模应用的需要,提出了多跳跃蒙特—卡罗节点定位方法,解决了锚节点密度低的应用限制。
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